After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to drive these pipes 131 feet below the seafloor.
From: MIGHTY SHIPS: Maersk Interceptor
http://bit.ly/2biRHN1

published:19 Aug 2016

views:800678

published:30 Sep 2017

views:19986

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural integrity calculations. See www.veqter.co.uk/deep-hole-drilling for further details.

published:03 Aug 2012

views:484760

http://www.widia.com/widia/en/products/24019771/24064245/49223937.htmlSolid Carbide DeepHole Drills are 4x faster than conventional drills.
Reduced cycle time, no pecking cycles.
No special equipment. Can be used in machine centers.
Capacity & manufacturing cost savings.
Full Range of through coolant solid carbide deep hole drills up to 30xD and more

Courtesy of Tech Insider --- ExtremeJourney to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here.
Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of the country of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure.
Scientific drilling is interdisciplinary and international in scope. Individual scientists cannot generally undertake scientific drilling projects alone. Teamwork between scientists, engineers, and administrators is often required for success in planning and in carrying out a drilling project, analyzing the samples, and interpreting and publishing the results in scientific journals.
Humans have reached the moon and are planning to return samples from Mars, but when it comes to exploring the land deep beneath our feet, we have only scratched the surface of our planet.
This may be about to change with a $1 billion mission to drill 6 km (3.7 miles) beneath the seafloor to reach the Earth's mantle -- a 3000 km-thick layer of slowly deforming rock between the crust and the core which makes up the majority of our planet -- and bring back the first ever fresh samples.
It could help answer some of our biggest questions about the origins and evolution of Earth itself, with almost all of the sea floor and continents that make up the Earth´s surface originating from the mantle.
Geologists involved in the project are already comparing it to the ApolloMoon missions in terms of the value of the samples it could yield.
However, in order to reach those samples, the team of international scientists must first find a way to grind their way through ultra-hard rocks with 10 km-long (6.2 miles) drill pipes -- a technical challenge that one of the project co-leaders Damon Teagle, from the UK'sUniversity of Southampton calls, "the most challenging endeavor in the history of Earth science."
'A ship flying in space:' Earth seen through the eyes of an astronaut
Their task will be all the more difficult for being conducted out in the middle of the ocean. It is here that the Earth´s crust is at its thinnest at around 6 km compared to as much as 60 km (37.3 miles) on land.
Drilling all the way to the mantle would also give geologists a look at what they call the Mohorovičić discontinuity, or Moho, for short. Above this mysterious zone, named for the Croatian seismologist who discovered it in 1909, seismic waves travel at around 4.3 miles per second, a rate consistent with those waves traveling through basalt, or cooled lava. Below the Moho, the waves rip along at around 5 miles per second, similar to the rate they travel through a silica-poor type of igneous rock called peridotite. The Moho typically lies between 3 to 6 miles below the ocean floor and anywhere between 12 to 56 miles beneath the continents.
This zone has long been considered the crust-mantle boundary, where material gradually cools and sticks to the overlying crust. But some lab studies suggest it’s possible that the Moho represents the zone where water seeping down from the overlying crust reacts with mantle peridotites to create a type of mineral called serpentine. This possibility is exciting, Dick and MacLeod suggest. The geochemical reactions that generate serpentine also produce hydrogen, which can then react with seawater to produce methane, a source of energy for some types of bacteria. Or, the researchers note, the Moho could be something else entirely unknown to science.
Music: Land of Giants by DhruvaAliman
https://dhruvaaliman.bandcamp.com/album/road-of-fortunes
http://www.dhruvaaliman.com/

published:18 Oct 2017

views:83422

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If you're curious about the answer, then this is the video for you!
Please Subscribe: http://bit.ly/2dB7VTO
Music is by Brandon Maahs. Check out his website and music by clicking this link: http://www.brandonmaahs.com/audio-reel
Instagram: https://www.instagram.com/official_wh...Facebook: https://www.facebook.com/RealLifeLore/
Twitter: https://twitter.com/RealLifeLore1
Reddit: https://www.reddit.com/r/RealLifeLore/
Subreddit is moderated by Oliver Bourdouxhe
Special thanks my Patrons: Conor Dillon, Donna, MichaelAufiero, Owen, Mohammed AbuHawash, Patrick Kelley, MechanoidOrange and Greenlandia.
Videos explaining things. Mostly over topics like history, geography, economics and science.
We believe that the world is a wonderfully fascinating place, and you can find wonder anywhere you look. That is what our videos attempt to convey.
Currently, we try our best to release one video every week. Bear with us :)
BusinessEmail: thereallifelore@gmail.com

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet our energy needs. This video by Shell explains the basics of how offshore deep water wells are drilled, including explanations and visualization of important components, processes and techniques that drilling rigs use today to safely drill wells.
Welcome to Shell’s official YouTube channel. Subscribe here to learn about the future of energy, see our new technology and innovation in action or watch highlights from our major projects around the world. Here you’ll also find videos on jobs and careers, motorsports, the Shell Eco-marathon as well as new products like Shell V-Power. If you have any thoughts or questions, please comment, like or share. Together we can #makethefuture
Visit our Website: http://www.shell.com/
Like us on Facebook: https://www.facebook.com/Shell/
Follow us on Instagram: https://www.instagram.com/shell/
Follow us on Twitter: https://twitter.com/shell
Look us up on Flickr: http://www.flickr.com/photos/royaldutchshell
Linkedin: https://www.linkedin.com/company-beta/1271/

published:05 Sep 2013

views:576558

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Shirts Now !! : https://teespring.com/092505500
Follow Us
Youtube add : https://youtu.be/addme/JSXh6u0hTe4yn2OTM02cfl24-BMJlA
Youtube: https://www.youtube.com/agribuzz
Twitter: https://twitter.com/agribuzzsocial
Facebook: https://www.facebook.com/agribuzzsocial
Pinterest: https://www.pinterest.com/agribuzz
Blogger: https://agri-buzz.blogspot.com
#Drilling #Rig #AgriBuzz #compressor

Deep (Silent Running album)

Deep is the third and final studio album from Belfast New Wave/rock band Silent Running, released in 1989.

Background

Despite the commercial failure of the band's 1987 album Walk on Fire and its two singles, the band began to record their second album for Atlantic Records.

Following the release of the Deep album, the band toured extensively after the album's release but split up shortly thereafter, citing a lack of record company support. The band would later reunite for one final performance at Belfast's Empire Music Hall to a capacity crowd in 1998. Reportedly, demos for the unreleased fourth album are widely available although unofficially only.

Like the previous two albums, Deep was a commercial failure.

The album's title is taken from the opening track "Deep in the Heart of Nowhere".

Both "Deep in the Heart of Nowhere" and "Local Hero" were released as promotional singles on CD in America only.

Recording

The first four tracks of the album were produced by the band themselves with Frankie LaRocka and Peter Denenberg, who both engineered the album. The rest of the tracks were produced by John Eden, whilst LaRocka and Deneberg remixed the tracks produced by Eden. The album was LaRocka's first attempt at production work, where he also played drums on part of the album. Originally, LaRocka had signed the band while working in the A&R department at Atlantic Records.

Ten was not an immediate success, but by late 1992 it had reached number two on the Billboard 200 chart. The album produced three hit singles: "Alive", "Even Flow", and "Jeremy". While Pearl Jam was accused of jumping on the grunge bandwagon at the time, Ten was instrumental in popularizing alternative rock in the mainstream. In February 2013, the album crossed the 10 million mark in sales and has been certified 13x platinum by the RIAA. It remains Pearl Jam's most commercially successful album.

Background

Deep hole drilling

Deep hole drilling (DHD) is a residual stress measurement technique used to measure locked-in and applied stresses in engineering materials and components. DHD is a semi-destructive mechanical strain relaxation (MSR) technique, which seeks to measure the distribution of stresses along the axis of a drilled reference hole. The process is unique in its ability to measure residual stresses at a microscopic level with a penetration of over 750 millimetres (30in), without total destruction of the original component. DHD is considered deep in comparison to other hole drilling techniques such as centre hole drilling.

Technique Overview

DHD involves drilling a hole through the thickness of the component, measuring the diameter of the hole, trepanning (cutting a circular slot around the hole) a core of material from around the hole and finally re-measuring the diameter of the hole. For engineering metals, the trepanning process is typically performed using electrical discharge machining (EDM) to minimise the introduction of further stresses during the cutting. The differences between the measured diameters before and after stress release enables the original residual stresses to be calculated using elasticity theory. An animated YouTube video explaining the DHD technique can be viewed here: YouTube: Deep Hole Drilling Technique.

Drilling rig

A drilling rig is a machine that creates holes in the earth sub-surface. Drilling rigs can be massive structures housing equipment used to drill water wells, oil wells, or natural gas extraction wells, or they can be small enough to be moved manually by one person and are called augers. Drilling rigs can sample sub-surface mineral deposits, test rock, soil and groundwater physical properties, and also can be used to install sub-surface fabrications, such as underground utilities, instrumentation, tunnels or wells. Drilling rigs can be mobile equipment mounted on trucks, tracks or trailers, or more permanent land or marine-based structures (such as oil platforms, commonly called 'offshore oil rigs' even if they don't contain a drilling rig). The term "rig" therefore generally refers to the complex of equipment that is used to penetrate the surface of the Earth's crust.

Small to medium-sized drilling rigs are mobile, such as those used in mineral exploration drilling, blast-hole, water wells and environmental investigations. Larger rigs are capable of drilling through thousands of metres of the Earth's crust, using large "mud pumps" to circulate drilling mud (slurry) through the drill bit and up the casing annulus, for cooling and removing the "cuttings" while a well is drilled. Hoists in the rig can lift hundreds of tons of pipe. Other equipment can force acid or sand into reservoirs to facilitate extraction of the oil or natural gas; and in remote locations there can be permanent living accommodation and catering for crews (which may be more than a hundred). Marine rigs may operate thousands of miles distant from the supply base with infrequent crew rotation or cycle.

Scientific drilling

Scientific drilling is a way to probe down into the Earth, allowing scientists to obtain samples of sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling results from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP).
Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here.

Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure.

Offshore drilling

Offshore drilling is a mechanical process where a wellbore is drilled below the seabed. It is typically carried out in order to explore for and subsequently extract petroleum which lies in rock formations beneath the seabed. Most commonly, the term is used to describe drilling activities on the continental shelf, though the term can also be applied to drilling in lakes, inshore waters and inland seas.

Offshore drilling presents environmental challenges, both from the produced hydrocarbons and the materials used during the drilling operation. Controversies include the ongoing US offshore drilling debate.

There are many different types of facilities from which offshore drilling operations take place. These include bottom founded drilling rigs (jackup barges and swamp barges), combined drilling and production facilities either bottom founded or floating platforms, and deepwater mobile offshore drilling units (MODU) including semi-submersibles and drillships. These are capable of operating in water depths up to 3,000 metres (9,800ft). In shallower waters the mobile units are anchored to the seabed, however in deeper water (more than 1,500 metres (4,900ft) the semisubmersibles or drillships are maintained at the required drilling location using dynamic positioning.

Offshore deepwater drilling process

How a Deep-Sea Offshore Drilling Rig Works

After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to drive these pipes 131 feet below the seafloor.
From: MIGHTY SHIPS: Maersk Interceptor
http://bit.ly/2biRHN1

1:22:51

How a Deep-Sea Offshore Drilling Rig Works | Documentary

How a Deep-Sea Offshore Drilling Rig Works | Documentary

How a Deep-Sea Offshore Drilling Rig Works | Documentary

2:24

Deep-Hole Drilling Technique

Deep-Hole Drilling Technique

Deep-Hole Drilling Technique

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural integrity calculations. See www.veqter.co.uk/deep-hole-drilling for further details.

1:34

WIDIA Deep Hole Drilling up to 30xD

WIDIA Deep Hole Drilling up to 30xD

WIDIA Deep Hole Drilling up to 30xD

http://www.widia.com/widia/en/products/24019771/24064245/49223937.htmlSolid Carbide DeepHole Drills are 4x faster than conventional drills.
Reduced cycle time, no pecking cycles.
No special equipment. Can be used in machine centers.
Capacity & manufacturing cost savings.
Full Range of through coolant solid carbide deep hole drills up to 30xD and more

Great Animation Shows How Deep Humans Dug Into The Earth

Courtesy of Tech Insider --- ExtremeJourney to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here.
Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of the country of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure.
Scientific drilling is interdisciplinary and international in scope. Individual scientists cannot generally undertake scientific drilling projects alone. Teamwork between scientists, engineers, and administrators is often required for success in planning and in carrying out a drilling project, analyzing the samples, and interpreting and publishing the results in scientific journals.
Humans have reached the moon and are planning to return samples from Mars, but when it comes to exploring the land deep beneath our feet, we have only scratched the surface of our planet.
This may be about to change with a $1 billion mission to drill 6 km (3.7 miles) beneath the seafloor to reach the Earth's mantle -- a 3000 km-thick layer of slowly deforming rock between the crust and the core which makes up the majority of our planet -- and bring back the first ever fresh samples.
It could help answer some of our biggest questions about the origins and evolution of Earth itself, with almost all of the sea floor and continents that make up the Earth´s surface originating from the mantle.
Geologists involved in the project are already comparing it to the ApolloMoon missions in terms of the value of the samples it could yield.
However, in order to reach those samples, the team of international scientists must first find a way to grind their way through ultra-hard rocks with 10 km-long (6.2 miles) drill pipes -- a technical challenge that one of the project co-leaders Damon Teagle, from the UK'sUniversity of Southampton calls, "the most challenging endeavor in the history of Earth science."
'A ship flying in space:' Earth seen through the eyes of an astronaut
Their task will be all the more difficult for being conducted out in the middle of the ocean. It is here that the Earth´s crust is at its thinnest at around 6 km compared to as much as 60 km (37.3 miles) on land.
Drilling all the way to the mantle would also give geologists a look at what they call the Mohorovičić discontinuity, or Moho, for short. Above this mysterious zone, named for the Croatian seismologist who discovered it in 1909, seismic waves travel at around 4.3 miles per second, a rate consistent with those waves traveling through basalt, or cooled lava. Below the Moho, the waves rip along at around 5 miles per second, similar to the rate they travel through a silica-poor type of igneous rock called peridotite. The Moho typically lies between 3 to 6 miles below the ocean floor and anywhere between 12 to 56 miles beneath the continents.
This zone has long been considered the crust-mantle boundary, where material gradually cools and sticks to the overlying crust. But some lab studies suggest it’s possible that the Moho represents the zone where water seeping down from the overlying crust reacts with mantle peridotites to create a type of mineral called serpentine. This possibility is exciting, Dick and MacLeod suggest. The geochemical reactions that generate serpentine also produce hydrogen, which can then react with seawater to produce methane, a source of energy for some types of bacteria. Or, the researchers note, the Moho could be something else entirely unknown to science.
Music: Land of Giants by DhruvaAliman
https://dhruvaaliman.bandcamp.com/album/road-of-fortunes
http://www.dhruvaaliman.com/

8:11

What's the Deepest Hole We Can Possibly Dig?

What's the Deepest Hole We Can Possibly Dig?

What's the Deepest Hole We Can Possibly Dig?

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If you're curious about the answer, then this is the video for you!
Please Subscribe: http://bit.ly/2dB7VTO
Music is by Brandon Maahs. Check out his website and music by clicking this link: http://www.brandonmaahs.com/audio-reel
Instagram: https://www.instagram.com/official_wh...Facebook: https://www.facebook.com/RealLifeLore/
Twitter: https://twitter.com/RealLifeLore1
Reddit: https://www.reddit.com/r/RealLifeLore/
Subreddit is moderated by Oliver Bourdouxhe
Special thanks my Patrons: Conor Dillon, Donna, MichaelAufiero, Owen, Mohammed AbuHawash, Patrick Kelley, MechanoidOrange and Greenlandia.
Videos explaining things. Mostly over topics like history, geography, economics and science.
We believe that the world is a wonderfully fascinating place, and you can find wonder anywhere you look. That is what our videos attempt to convey.
Currently, we try our best to release one video every week. Bear with us :)
BusinessEmail: thereallifelore@gmail.com

SD230A deep hole drilling (30xD)

Drilling 101: How a deep water well is drilled

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet our energy needs. This video by Shell explains the basics of how offshore deep water wells are drilled, including explanations and visualization of important components, processes and techniques that drilling rigs use today to safely drill wells.
Welcome to Shell’s official YouTube channel. Subscribe here to learn about the future of energy, see our new technology and innovation in action or watch highlights from our major projects around the world. Here you’ll also find videos on jobs and careers, motorsports, the Shell Eco-marathon as well as new products like Shell V-Power. If you have any thoughts or questions, please comment, like or share. Together we can #makethefuture
Visit our Website: http://www.shell.com/
Like us on Facebook: https://www.facebook.com/Shell/
Follow us on Instagram: https://www.instagram.com/shell/
Follow us on Twitter: https://twitter.com/shell
Look us up on Flickr: http://www.flickr.com/photos/royaldutchshell
Linkedin: https://www.linkedin.com/company-beta/1271/

15:24

Bore Drilling Machine for deep well In Agribuzz Farm

Bore Drilling Machine for deep well In Agribuzz Farm

Bore Drilling Machine for deep well In Agribuzz Farm

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Shirts Now !! : https://teespring.com/092505500
Follow Us
Youtube add : https://youtu.be/addme/JSXh6u0hTe4yn2OTM02cfl24-BMJlA
Youtube: https://www.youtube.com/agribuzz
Twitter: https://twitter.com/agribuzzsocial
Facebook: https://www.facebook.com/agribuzzsocial
Pinterest: https://www.pinterest.com/agribuzz
Blogger: https://agri-buzz.blogspot.com
#Drilling #Rig #AgriBuzz #compressor

3:13

Deep Hole Drilling - The Cutting View

Deep Hole Drilling - The Cutting View

Deep Hole Drilling - The Cutting View

Deep hole drilling may seem difficult, but these simple steps from Manfred Lenz can help make it a trouble free operation.

6:29

HELL Found At Bottom Of Deepest Hole On Earth?!

HELL Found At Bottom Of Deepest Hole On Earth?!

HELL Found At Bottom Of Deepest Hole On Earth?!

The Kola Borehole is the deepest point on Earth that is also man-made. Recently scientists have discovered a few breakthroughs that lie within it.
►Subscribe for more videos! http://bit.ly/1Mo6FxX
►Check out my food channel! http://bit.ly/1hsxh41
★↓FOLLOW ME ON SOCIAL MEDIA!↓★
FacebookShowPage: https://www.facebook.com/beyondsciencetv
Facebook Mike Fan Page: http://on.fb.me/1En9Lue
Instagram: http://instagr.am/Mikexingchen
Twitter: http://twitter.com/Mikexingchen
Snapchat: Mikeychenx
Periscope: Mikexingchen
Music:
www.silvermansound.com
InspirationKevin MacLeod
Licensed under Creative Commons: By attribution 3.0License
http://creativecommons.org/licenses/b...
Get tickets to the best show on earth!!!
https://www.shenyunperformingarts.org/

Offshore deepwater drilling process

How a Deep-Sea Offshore Drilling Rig Works

After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to drive these pipes 131 feet below the seafloor.
From: MIGHTY SHIPS: Maersk Interceptor
http://bit.ly/2biRHN1

published: 19 Aug 2016

How a Deep-Sea Offshore Drilling Rig Works | Documentary

published: 30 Sep 2017

Deep-Hole Drilling Technique

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural integrity calculations. See www.veqter.co.uk/deep-hole-drilling for further details.

published: 03 Aug 2012

WIDIA Deep Hole Drilling up to 30xD

http://www.widia.com/widia/en/products/24019771/24064245/49223937.htmlSolid Carbide DeepHole Drills are 4x faster than conventional drills.
Reduced cycle time, no pecking cycles.
No special equipment. Can be used in machine centers.
Capacity & manufacturing cost savings.
Full Range of through coolant solid carbide deep hole drills up to 30xD and more

Great Animation Shows How Deep Humans Dug Into The Earth

Courtesy of Tech Insider --- ExtremeJourney to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ic...

published: 18 Oct 2017

What's the Deepest Hole We Can Possibly Dig?

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If you're curious about the answer, then this is the video for you!
Please Subscribe: http://bit.ly/2dB7VTO
Music is by Brandon Maahs. Check out his website and music by clicking this link: http://www.brandonmaahs.com/audio-reel
Instagram: https://www.instagram.com/official_wh...Facebook: https://www.facebook.com/RealLifeLore/
Twitter: https://twitter.com/RealLifeLore1
Reddit: https://www.reddit.com/r/RealLifeLore/
Subreddit is moderated by Oliver Bourdouxhe
Special thanks my Patrons: Conor Dillon, Donna, MichaelAufiero, Owen, Mohammed AbuHawash, Patrick Kelley, MechanoidOrange and Greenlandia.
Videos explaining things. Mostly o...

SD230A deep hole drilling (30xD)

Drilling 101: How a deep water well is drilled

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet our energy needs. This video by Shell explains the basics of how offshore deep water wells are drilled, including explanations and visualization of important components, processes and techniques that drilling rigs use today to safely drill wells.
Welcome to Shell’s official YouTube channel. Subscribe here to learn about the future of energy, see our new technology and innovation in action or watch highlights from our major projects around the world. Here you’ll also find videos on jobs and careers, motorsports, the Shell Eco-marathon as well as new products like Shell V-Power. If you have any thoughts or questions, please comment, ...

published: 05 Sep 2013

Bore Drilling Machine for deep well In Agribuzz Farm

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Shirts Now !! : https://teespring.com/092505500
Follow Us
Youtube add : https://youtu.be/addme/JSXh6u0hTe4yn2OTM02cfl24-BMJlA
Youtube: https://www.youtube.com/agribuzz
Twitter: https://twitter.com/agribuzzsocial
Facebook: https://www.facebook.com/agribuzzsocial
Pinterest: https://www.pinterest.com/agribuzz
Blogger: https://agri-buzz.blogspot.com
#Drilling #Rig #AgriBuzz #compressor

published: 17 Jul 2018

Deep Hole Drilling - The Cutting View

Deep hole drilling may seem difficult, but these simple steps from Manfred Lenz can help make it a trouble free operation.

published: 11 May 2017

HELL Found At Bottom Of Deepest Hole On Earth?!

The Kola Borehole is the deepest point on Earth that is also man-made. Recently scientists have discovered a few breakthroughs that lie within it.
►Subscribe for more videos! http://bit.ly/1Mo6FxX
►Check out my food channel! http://bit.ly/1hsxh41
★↓FOLLOW ME ON SOCIAL MEDIA!↓★
FacebookShowPage: https://www.facebook.com/beyondsciencetv
Facebook Mike Fan Page: http://on.fb.me/1En9Lue
Instagram: http://instagr.am/Mikexingchen
Twitter: http://twitter.com/Mikexingchen
Snapchat: Mikeychenx
Periscope: Mikexingchen
Music:
www.silvermansound.com
InspirationKevin MacLeod
Licensed under Creative Commons: By attribution 3.0License
http://creativecommons.org/licenses/b...
Get tickets to the best show on earth!!!
https://www.shenyunperformingarts.org/

How a Deep-Sea Offshore Drilling Rig Works

After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to...

After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to drive these pipes 131 feet below the seafloor.
From: MIGHTY SHIPS: Maersk Interceptor
http://bit.ly/2biRHN1

After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to drive these pipes 131 feet below the seafloor.
From: MIGHTY SHIPS: Maersk Interceptor
http://bit.ly/2biRHN1

Deep-Hole Drilling Technique

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural inte...

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural integrity calculations. See www.veqter.co.uk/deep-hole-drilling for further details.

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural integrity calculations. See www.veqter.co.uk/deep-hole-drilling for further details.

http://www.widia.com/widia/en/products/24019771/24064245/49223937.htmlSolid Carbide DeepHole Drills are 4x faster than conventional drills.
Reduced cycle time, no pecking cycles.
No special equipment. Can be used in machine centers.
Capacity & manufacturing cost savings.
Full Range of through coolant solid carbide deep hole drills up to 30xD and more

http://www.widia.com/widia/en/products/24019771/24064245/49223937.htmlSolid Carbide DeepHole Drills are 4x faster than conventional drills.
Reduced cycle time, no pecking cycles.
No special equipment. Can be used in machine centers.
Capacity & manufacturing cost savings.
Full Range of through coolant solid carbide deep hole drills up to 30xD and more

Courtesy of Tech Insider --- ExtremeJourney to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here.
Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of the country of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure.
Scientific drilling is interdisciplinary and international in scope. Individual scientists cannot generally undertake scientific drilling projects alone. Teamwork between scientists, engineers, and administrators is often required for success in planning and in carrying out a drilling project, analyzing the samples, and interpreting and publishing the results in scientific journals.
Humans have reached the moon and are planning to return samples from Mars, but when it comes to exploring the land deep beneath our feet, we have only scratched the surface of our planet.
This may be about to change with a $1 billion mission to drill 6 km (3.7 miles) beneath the seafloor to reach the Earth's mantle -- a 3000 km-thick layer of slowly deforming rock between the crust and the core which makes up the majority of our planet -- and bring back the first ever fresh samples.
It could help answer some of our biggest questions about the origins and evolution of Earth itself, with almost all of the sea floor and continents that make up the Earth´s surface originating from the mantle.
Geologists involved in the project are already comparing it to the ApolloMoon missions in terms of the value of the samples it could yield.
However, in order to reach those samples, the team of international scientists must first find a way to grind their way through ultra-hard rocks with 10 km-long (6.2 miles) drill pipes -- a technical challenge that one of the project co-leaders Damon Teagle, from the UK'sUniversity of Southampton calls, "the most challenging endeavor in the history of Earth science."
'A ship flying in space:' Earth seen through the eyes of an astronaut
Their task will be all the more difficult for being conducted out in the middle of the ocean. It is here that the Earth´s crust is at its thinnest at around 6 km compared to as much as 60 km (37.3 miles) on land.
Drilling all the way to the mantle would also give geologists a look at what they call the Mohorovičić discontinuity, or Moho, for short. Above this mysterious zone, named for the Croatian seismologist who discovered it in 1909, seismic waves travel at around 4.3 miles per second, a rate consistent with those waves traveling through basalt, or cooled lava. Below the Moho, the waves rip along at around 5 miles per second, similar to the rate they travel through a silica-poor type of igneous rock called peridotite. The Moho typically lies between 3 to 6 miles below the ocean floor and anywhere between 12 to 56 miles beneath the continents.
This zone has long been considered the crust-mantle boundary, where material gradually cools and sticks to the overlying crust. But some lab studies suggest it’s possible that the Moho represents the zone where water seeping down from the overlying crust reacts with mantle peridotites to create a type of mineral called serpentine. This possibility is exciting, Dick and MacLeod suggest. The geochemical reactions that generate serpentine also produce hydrogen, which can then react with seawater to produce methane, a source of energy for some types of bacteria. Or, the researchers note, the Moho could be something else entirely unknown to science.
Music: Land of Giants by DhruvaAliman
https://dhruvaaliman.bandcamp.com/album/road-of-fortunes
http://www.dhruvaaliman.com/

Courtesy of Tech Insider --- ExtremeJourney to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here.
Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of the country of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure.
Scientific drilling is interdisciplinary and international in scope. Individual scientists cannot generally undertake scientific drilling projects alone. Teamwork between scientists, engineers, and administrators is often required for success in planning and in carrying out a drilling project, analyzing the samples, and interpreting and publishing the results in scientific journals.
Humans have reached the moon and are planning to return samples from Mars, but when it comes to exploring the land deep beneath our feet, we have only scratched the surface of our planet.
This may be about to change with a $1 billion mission to drill 6 km (3.7 miles) beneath the seafloor to reach the Earth's mantle -- a 3000 km-thick layer of slowly deforming rock between the crust and the core which makes up the majority of our planet -- and bring back the first ever fresh samples.
It could help answer some of our biggest questions about the origins and evolution of Earth itself, with almost all of the sea floor and continents that make up the Earth´s surface originating from the mantle.
Geologists involved in the project are already comparing it to the ApolloMoon missions in terms of the value of the samples it could yield.
However, in order to reach those samples, the team of international scientists must first find a way to grind their way through ultra-hard rocks with 10 km-long (6.2 miles) drill pipes -- a technical challenge that one of the project co-leaders Damon Teagle, from the UK'sUniversity of Southampton calls, "the most challenging endeavor in the history of Earth science."
'A ship flying in space:' Earth seen through the eyes of an astronaut
Their task will be all the more difficult for being conducted out in the middle of the ocean. It is here that the Earth´s crust is at its thinnest at around 6 km compared to as much as 60 km (37.3 miles) on land.
Drilling all the way to the mantle would also give geologists a look at what they call the Mohorovičić discontinuity, or Moho, for short. Above this mysterious zone, named for the Croatian seismologist who discovered it in 1909, seismic waves travel at around 4.3 miles per second, a rate consistent with those waves traveling through basalt, or cooled lava. Below the Moho, the waves rip along at around 5 miles per second, similar to the rate they travel through a silica-poor type of igneous rock called peridotite. The Moho typically lies between 3 to 6 miles below the ocean floor and anywhere between 12 to 56 miles beneath the continents.
This zone has long been considered the crust-mantle boundary, where material gradually cools and sticks to the overlying crust. But some lab studies suggest it’s possible that the Moho represents the zone where water seeping down from the overlying crust reacts with mantle peridotites to create a type of mineral called serpentine. This possibility is exciting, Dick and MacLeod suggest. The geochemical reactions that generate serpentine also produce hydrogen, which can then react with seawater to produce methane, a source of energy for some types of bacteria. Or, the researchers note, the Moho could be something else entirely unknown to science.
Music: Land of Giants by DhruvaAliman
https://dhruvaaliman.bandcamp.com/album/road-of-fortunes
http://www.dhruvaaliman.com/

What's the Deepest Hole We Can Possibly Dig?

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If yo...

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If you're curious about the answer, then this is the video for you!
Please Subscribe: http://bit.ly/2dB7VTO
Music is by Brandon Maahs. Check out his website and music by clicking this link: http://www.brandonmaahs.com/audio-reel
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Subreddit is moderated by Oliver Bourdouxhe
Special thanks my Patrons: Conor Dillon, Donna, MichaelAufiero, Owen, Mohammed AbuHawash, Patrick Kelley, MechanoidOrange and Greenlandia.
Videos explaining things. Mostly over topics like history, geography, economics and science.
We believe that the world is a wonderfully fascinating place, and you can find wonder anywhere you look. That is what our videos attempt to convey.
Currently, we try our best to release one video every week. Bear with us :)
BusinessEmail: thereallifelore@gmail.com

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If you're curious about the answer, then this is the video for you!
Please Subscribe: http://bit.ly/2dB7VTO
Music is by Brandon Maahs. Check out his website and music by clicking this link: http://www.brandonmaahs.com/audio-reel
Instagram: https://www.instagram.com/official_wh...Facebook: https://www.facebook.com/RealLifeLore/
Twitter: https://twitter.com/RealLifeLore1
Reddit: https://www.reddit.com/r/RealLifeLore/
Subreddit is moderated by Oliver Bourdouxhe
Special thanks my Patrons: Conor Dillon, Donna, MichaelAufiero, Owen, Mohammed AbuHawash, Patrick Kelley, MechanoidOrange and Greenlandia.
Videos explaining things. Mostly over topics like history, geography, economics and science.
We believe that the world is a wonderfully fascinating place, and you can find wonder anywhere you look. That is what our videos attempt to convey.
Currently, we try our best to release one video every week. Bear with us :)
BusinessEmail: thereallifelore@gmail.com

Drilling 101: How a deep water well is drilled

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet ...

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet our energy needs. This video by Shell explains the basics of how offshore deep water wells are drilled, including explanations and visualization of important components, processes and techniques that drilling rigs use today to safely drill wells.
Welcome to Shell’s official YouTube channel. Subscribe here to learn about the future of energy, see our new technology and innovation in action or watch highlights from our major projects around the world. Here you’ll also find videos on jobs and careers, motorsports, the Shell Eco-marathon as well as new products like Shell V-Power. If you have any thoughts or questions, please comment, like or share. Together we can #makethefuture
Visit our Website: http://www.shell.com/
Like us on Facebook: https://www.facebook.com/Shell/
Follow us on Instagram: https://www.instagram.com/shell/
Follow us on Twitter: https://twitter.com/shell
Look us up on Flickr: http://www.flickr.com/photos/royaldutchshell
Linkedin: https://www.linkedin.com/company-beta/1271/

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet our energy needs. This video by Shell explains the basics of how offshore deep water wells are drilled, including explanations and visualization of important components, processes and techniques that drilling rigs use today to safely drill wells.
Welcome to Shell’s official YouTube channel. Subscribe here to learn about the future of energy, see our new technology and innovation in action or watch highlights from our major projects around the world. Here you’ll also find videos on jobs and careers, motorsports, the Shell Eco-marathon as well as new products like Shell V-Power. If you have any thoughts or questions, please comment, like or share. Together we can #makethefuture
Visit our Website: http://www.shell.com/
Like us on Facebook: https://www.facebook.com/Shell/
Follow us on Instagram: https://www.instagram.com/shell/
Follow us on Twitter: https://twitter.com/shell
Look us up on Flickr: http://www.flickr.com/photos/royaldutchshell
Linkedin: https://www.linkedin.com/company-beta/1271/

Bore Drilling Machine for deep well In Agribuzz Farm

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Sh...

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Shirts Now !! : https://teespring.com/092505500
Follow Us
Youtube add : https://youtu.be/addme/JSXh6u0hTe4yn2OTM02cfl24-BMJlA
Youtube: https://www.youtube.com/agribuzz
Twitter: https://twitter.com/agribuzzsocial
Facebook: https://www.facebook.com/agribuzzsocial
Pinterest: https://www.pinterest.com/agribuzz
Blogger: https://agri-buzz.blogspot.com
#Drilling #Rig #AgriBuzz #compressor

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Shirts Now !! : https://teespring.com/092505500
Follow Us
Youtube add : https://youtu.be/addme/JSXh6u0hTe4yn2OTM02cfl24-BMJlA
Youtube: https://www.youtube.com/agribuzz
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Facebook: https://www.facebook.com/agribuzzsocial
Pinterest: https://www.pinterest.com/agribuzz
Blogger: https://agri-buzz.blogspot.com
#Drilling #Rig #AgriBuzz #compressor

The Kola Borehole is the deepest point on Earth that is also man-made. Recently scientists have discovered a few breakthroughs that lie within it.
►Subscribe for more videos! http://bit.ly/1Mo6FxX
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Licensed under Creative Commons: By attribution 3.0License
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Get tickets to the best show on earth!!!
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The Kola Borehole is the deepest point on Earth that is also man-made. Recently scientists have discovered a few breakthroughs that lie within it.
►Subscribe for more videos! http://bit.ly/1Mo6FxX
►Check out my food channel! http://bit.ly/1hsxh41
★↓FOLLOW ME ON SOCIAL MEDIA!↓★
FacebookShowPage: https://www.facebook.com/beyondsciencetv
Facebook Mike Fan Page: http://on.fb.me/1En9Lue
Instagram: http://instagr.am/Mikexingchen
Twitter: http://twitter.com/Mikexingchen
Snapchat: Mikeychenx
Periscope: Mikexingchen
Music:
www.silvermansound.com
InspirationKevin MacLeod
Licensed under Creative Commons: By attribution 3.0License
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Get tickets to the best show on earth!!!
https://www.shenyunperformingarts.org/

How a Deep-Sea Offshore Drilling Rig Works

After 22 hours, the crew of the MaerskInterceptor have assembled and lowered 551 feet of pipes into the water. Through them, a hydraulic hammer will operate to drive these pipes 131 feet below the seafloor.
From: MIGHTY SHIPS: Maersk Interceptor
http://bit.ly/2biRHN1

Deep-Hole Drilling Technique

Animation of the Deep-Hole Drilling residual stress measurement technique for measuring stresses through thick engineering components for use in structural integrity calculations. See www.veqter.co.uk/deep-hole-drilling for further details.

WIDIA Deep Hole Drilling up to 30xD

http://www.widia.com/widia/en/products/24019771/24064245/49223937.htmlSolid Carbide DeepHole Drills are 4x faster than conventional drills.
Reduced cycle time, no pecking cycles.
No special equipment. Can be used in machine centers.
Capacity & manufacturing cost savings.
Full Range of through coolant solid carbide deep hole drills up to 30xD and more

Great Animation Shows How Deep Humans Dug Into The Earth

Courtesy of Tech Insider --- ExtremeJourney to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here.
Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of the country of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure.
Scientific drilling is interdisciplinary and international in scope. Individual scientists cannot generally undertake scientific drilling projects alone. Teamwork between scientists, engineers, and administrators is often required for success in planning and in carrying out a drilling project, analyzing the samples, and interpreting and publishing the results in scientific journals.
Humans have reached the moon and are planning to return samples from Mars, but when it comes to exploring the land deep beneath our feet, we have only scratched the surface of our planet.
This may be about to change with a $1 billion mission to drill 6 km (3.7 miles) beneath the seafloor to reach the Earth's mantle -- a 3000 km-thick layer of slowly deforming rock between the crust and the core which makes up the majority of our planet -- and bring back the first ever fresh samples.
It could help answer some of our biggest questions about the origins and evolution of Earth itself, with almost all of the sea floor and continents that make up the Earth´s surface originating from the mantle.
Geologists involved in the project are already comparing it to the ApolloMoon missions in terms of the value of the samples it could yield.
However, in order to reach those samples, the team of international scientists must first find a way to grind their way through ultra-hard rocks with 10 km-long (6.2 miles) drill pipes -- a technical challenge that one of the project co-leaders Damon Teagle, from the UK'sUniversity of Southampton calls, "the most challenging endeavor in the history of Earth science."
'A ship flying in space:' Earth seen through the eyes of an astronaut
Their task will be all the more difficult for being conducted out in the middle of the ocean. It is here that the Earth´s crust is at its thinnest at around 6 km compared to as much as 60 km (37.3 miles) on land.
Drilling all the way to the mantle would also give geologists a look at what they call the Mohorovičić discontinuity, or Moho, for short. Above this mysterious zone, named for the Croatian seismologist who discovered it in 1909, seismic waves travel at around 4.3 miles per second, a rate consistent with those waves traveling through basalt, or cooled lava. Below the Moho, the waves rip along at around 5 miles per second, similar to the rate they travel through a silica-poor type of igneous rock called peridotite. The Moho typically lies between 3 to 6 miles below the ocean floor and anywhere between 12 to 56 miles beneath the continents.
This zone has long been considered the crust-mantle boundary, where material gradually cools and sticks to the overlying crust. But some lab studies suggest it’s possible that the Moho represents the zone where water seeping down from the overlying crust reacts with mantle peridotites to create a type of mineral called serpentine. This possibility is exciting, Dick and MacLeod suggest. The geochemical reactions that generate serpentine also produce hydrogen, which can then react with seawater to produce methane, a source of energy for some types of bacteria. Or, the researchers note, the Moho could be something else entirely unknown to science.
Music: Land of Giants by DhruvaAliman
https://dhruvaaliman.bandcamp.com/album/road-of-fortunes
http://www.dhruvaaliman.com/

What's the Deepest Hole We Can Possibly Dig?

The first 500 people to use this link will get a 2 month free trial of Skillshare: http://skl.sh/RLLWhat is the deepest hole that humanity has ever dug? If you're curious about the answer, then this is the video for you!
Please Subscribe: http://bit.ly/2dB7VTO
Music is by Brandon Maahs. Check out his website and music by clicking this link: http://www.brandonmaahs.com/audio-reel
Instagram: https://www.instagram.com/official_wh...Facebook: https://www.facebook.com/RealLifeLore/
Twitter: https://twitter.com/RealLifeLore1
Reddit: https://www.reddit.com/r/RealLifeLore/
Subreddit is moderated by Oliver Bourdouxhe
Special thanks my Patrons: Conor Dillon, Donna, MichaelAufiero, Owen, Mohammed AbuHawash, Patrick Kelley, MechanoidOrange and Greenlandia.
Videos explaining things. Mostly over topics like history, geography, economics and science.
We believe that the world is a wonderfully fascinating place, and you can find wonder anywhere you look. That is what our videos attempt to convey.
Currently, we try our best to release one video every week. Bear with us :)
BusinessEmail: thereallifelore@gmail.com

Drilling 101: How a deep water well is drilled

Drilling wells is one of the most important activities in the process of finding hydrocarbon reservoirs and producing oil and gas from these reservoirs to meet our energy needs. This video by Shell explains the basics of how offshore deep water wells are drilled, including explanations and visualization of important components, processes and techniques that drilling rigs use today to safely drill wells.
Welcome to Shell’s official YouTube channel. Subscribe here to learn about the future of energy, see our new technology and innovation in action or watch highlights from our major projects around the world. Here you’ll also find videos on jobs and careers, motorsports, the Shell Eco-marathon as well as new products like Shell V-Power. If you have any thoughts or questions, please comment, like or share. Together we can #makethefuture
Visit our Website: http://www.shell.com/
Like us on Facebook: https://www.facebook.com/Shell/
Follow us on Instagram: https://www.instagram.com/shell/
Follow us on Twitter: https://twitter.com/shell
Look us up on Flickr: http://www.flickr.com/photos/royaldutchshell
Linkedin: https://www.linkedin.com/company-beta/1271/

Bore Drilling Machine for deep well In Agribuzz Farm

I spend 1100$ for this drilling. it is lucky that I can get water on Mountain. I think it supply enough water for my 5 hectare farm. Thanks for watching
Buy Shirts Now !! : https://teespring.com/092505500
Follow Us
Youtube add : https://youtu.be/addme/JSXh6u0hTe4yn2OTM02cfl24-BMJlA
Youtube: https://www.youtube.com/agribuzz
Twitter: https://twitter.com/agribuzzsocial
Facebook: https://www.facebook.com/agribuzzsocial
Pinterest: https://www.pinterest.com/agribuzz
Blogger: https://agri-buzz.blogspot.com
#Drilling #Rig #AgriBuzz #compressor

HELL Found At Bottom Of Deepest Hole On Earth?!

The Kola Borehole is the deepest point on Earth that is also man-made. Recently scientists have discovered a few breakthroughs that lie within it.
►Subscribe for more videos! http://bit.ly/1Mo6FxX
►Check out my food channel! http://bit.ly/1hsxh41
★↓FOLLOW ME ON SOCIAL MEDIA!↓★
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InspirationKevin MacLeod
Licensed under Creative Commons: By attribution 3.0License
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Get tickets to the best show on earth!!!
https://www.shenyunperformingarts.org/

Deep (Silent Running album)

Deep is the third and final studio album from Belfast New Wave/rock band Silent Running, released in 1989.

Background

Despite the commercial failure of the band's 1987 album Walk on Fire and its two singles, the band began to record their second album for Atlantic Records.

Following the release of the Deep album, the band toured extensively after the album's release but split up shortly thereafter, citing a lack of record company support. The band would later reunite for one final performance at Belfast's Empire Music Hall to a capacity crowd in 1998. Reportedly, demos for the unreleased fourth album are widely available although unofficially only.

Like the previous two albums, Deep was a commercial failure.

The album's title is taken from the opening track "Deep in the Heart of Nowhere".

Both "Deep in the Heart of Nowhere" and "Local Hero" were released as promotional singles on CD in America only.

Recording

The first four tracks of the album were produced by the band themselves with Frankie LaRocka and Peter Denenberg, who both engineered the album. The rest of the tracks were produced by John Eden, whilst LaRocka and Deneberg remixed the tracks produced by Eden. The album was LaRocka's first attempt at production work, where he also played drums on part of the album. Originally, LaRocka had signed the band while working in the A&R department at Atlantic Records.

Julen Rosell�, aged two, fell down the 100m borehole while out walking with his parents near M�laga Rescuers in southern Spain have began drilling in the hope of rescuing a two-year-old boy trapped in a deep well for six days ... .......

MISSOULA — The Missoula Hellgate boys basketball team is on a roll like Charmin ... It was a battle between two of the Western AA's top teams ... FollowingJohnson's two and-1s, Riddledrilled a three and then Worster found him patrolling deep twice more to end the first quarter and open the second ... I was really proud of him," Hellgate coach JeffHays said....

Deep Hole Drilling - The Cutting View...

HELL Found At Bottom Of Deepest Hole On Earth?!...

Latest News for: Deep drilling

Julen Rosell�, aged two, fell down the 100m borehole while out walking with his parents near M�laga Rescuers in southern Spain have began drilling in the hope of rescuing a two-year-old boy trapped in a deep well for six days ... .......

MISSOULA — The Missoula Hellgate boys basketball team is on a roll like Charmin ... It was a battle between two of the Western AA's top teams ... FollowingJohnson's two and-1s, Riddledrilled a three and then Worster found him patrolling deep twice more to end the first quarter and open the second ... I was really proud of him," Hellgate coach JeffHays said....

The intensity meter flipped drastically from one half to the next, from one team to the other ... We also had less turnovers.”.Clark’s assessment was right on both accounts ... Grahamdrilled a deep3-pointer to pull the LadyBulldogs within five, but Hay answered on the other end, nailing back-to-back 3-pointers to ignite a 14-0 run ... “I loved our effort ... ....

TOTALAN, Spain (Reuters) - Rescuers in southern Spain began drilling on Saturday in hopes of rescuing a two-year-old boy trapped in a deep well for six days ... The boy, Julen, fell into the borehole, which is just 25 cm (10 inches) wide and 100 metres (yards) deep, as his family walked through a private estate in Totalan, Malaga....

The SALSADrill Team as they prepared at McMurdo for its work at Mercer Subglacial Lake.SALSA Antarctica/Facebook ...Lake Mercer, a subglacial lake deep below the Antarctic Ice, sat untouched for millennia - until now ... They did this using a drill with a pencil-sized nozzle that sprays heated water....